Lithium Ion Solar Energy Storage Battery Container Solutions

Container energy storage is an innovative energy storage solution that uses containers for energy storage applications. It utilizes the structure and portability of containers to store electrical energy for subsequent use. Container energy storage systems integrate advanced battery storage technology and intelligent management systems, and are characterized by efficient energy storage, flexibility and renewable energy integration.
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Products Details

Product Introduction Container energy storage is an innovative energy storage solution that uses containers for energy storage applications. It utilizes the structure and portability of containers to store electrical energy for subsequent use. Container energy storage systems integrate advanced battery storage technology and intelligent management systems, and are characterized by efficient energy storage, flexibility and renewable energy integration.

Battery Storage System

Product Parameters
Model
20ft
40ft
Output volt
400V/480V
Grid frequency
50/60Hz(±2.5Hz)
Output power
50-300kW
250-630kW
Bat capacity
200-600kWh
600-2MWh
Bat type
LiFePO4
Size
Inside size(L*W*H):5.898*2.352*2.385
Inside size(L*W*H)::12.032*2.352*2.385
Outside size(L*W*H):6.058*2.438*2.591
Outside size(L*W*H):12.192*2.438*2.591
Protection level
IP54
Humidity
0-95%
Altitude
3000m
Working temperature
-20~50℃
Bat volt range
500-850V
Max. DC current
500A
1000A
Connect method
3P4W
Power factor
-1~1
Communication method
RS485,CAN,Ethernet
Isolation method
Low frequency isolation with transformer
Product Feature 1. High-efficiency energy storage: Container energy storage systems use advanced battery storage technologies, such as lithium-ion batteries, with high energy density and fast charging and discharging capabilities. This enables container energy storage systems to efficiently store large amounts of power and quickly release it when needed to meet fluctuations in energy demand. 2. Flexibility and mobility: Container energy storage systems utilize the structure and standard dimensions of containers for flexibility and mobility. Container energy storage systems can be easily transported, arranged and combined for a variety of scenarios, including cities, construction sites, and solar/wind farms. Their flexibility allows energy storage to be arranged and expanded as needed to meet energy storage needs of different sizes and capacities. 3. Renewable Energy Integration: Container energy storage systems can be integrated with renewable energy generation systems (e.g., solar photovoltaic, wind power, etc.). By storing the electricity generated from renewable energy sources into the container energy storage system, a smooth supply of energy can be realized. Container energy storage systems can provide a continuous supply of electricity when renewable energy generation is insufficient or discontinuous, maximizing the use of renewable energy. 4. Intelligent management and network support: Container energy storage systems are equipped with an intelligent management system that monitors battery status, charging and discharging efficiency, and energy usage in real time. Intelligent management system can optimize energy utilization and scheduling, and improve energy utilization efficiency. In addition, the containerized energy storage system can interact with the power grid, participate in power peaking and energy management, and provide flexible energy support. 5. Emergency backup power: Container energy storage systems can be used as emergency backup power to provide power supply in unexpected situations. When power outages, natural disasters or other emergencies occur, container energy storage systems can be quickly put into use to provide reliable power support for critical facilities and living needs. 6. Sustainable development: The application of containerized energy storage systems promotes sustainable development. It can help balance the intermittent generation of renewable energy with the volatility of energy demand, reducing reliance on traditional power networks. By increasing energy efficiency and promoting the use of renewable energy, containerized energy storage systems help drive the energy transition and reduce dependence on traditional fossil fuels.

Bess System 1 Mwh Battery

Container Storage

Application Container energy storage is not only applied to urban energy reserves, renewable energy integration, power supply in remote areas, construction sites and building sites, emergency backup power, energy trading and microgrids, etc. With the further development of technology, it is also expected to play a greater role in the fields of electric transportation, rural electrification, and offshore wind power. It provides a flexible, efficient and sustainable energy storage solution that helps to promote energy transition and sustainable development.

1 Mw Battery Energy Storage System Container

 

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